Energia in Horizon 2020
Giornata Nazionale di Lancio dei Bandi 2014‐15
MIUR Roma, 16 Dicembre 2013
MIUR ‐
R
16 Di
b 2013
L’esperienza ENEA nella presentazione di proposte 7PQ nell’ambito dello sfruttamento dell’energia solare
ll’ b d ll f
d ll’
l
Alberto Giaconia
ENEA Unità Tecnica Fonti Rinnovabili
ENEA, Unità
Rinno abili (UTRINN)
Tematiche di intervento dell’Unità ENEA UTRINN
‹
Solare termodinamico (CSP)
‹
Fotovoltaico
‹
Biomasse e bioenergie
Biomasse e bioenergie
‹
Idrogeno, celle a combustibile e sistemi di g
accumulo dell’energia
CSP – dal laboratorio alla dimostrazione industriale
2010
2009
Dimostrazione a
scala industriale
2008
Progettazione
g
e
realizzazione
dell’impianto
presso l’ENEL
di Priolo
2007
PCS
Impianto Archimede (5 MW)
2006
Qualificazione della
componentistica
innovativa
2005
2004
2003
Ricerca di
laboratorio
2002
2001
Realizzazione
impianto di prova
Sviluppo componenti in
collaborazione con
imprese industriali
Avvio del Progetto
UTRINN Progetti in corso UTRINN Progetti in corso –– CSP
PROGETTO
FINANZIAMENTO
DURATA
BUDGET ENEA
Paving the Way for the Mediterranean Solar Plan
ENPI
36 MESI
01/09/2010 ‐ 01/09/2013
€ 385,361.00
€ 385,361.00
SFERA ‐ Solar Facilities for the European SFERA
Solar Facilities for the European
Research Area
7FP
54 MESI
01/07/2009 ‐ 31/12/2013
€ 802,818.88
€ 708,540.08
OPTS ‐ Optimization of a Thermal energy Storage system with integrated Steam Generator
7FP
36 MESI
01/11/2011 ‐ 30/10/2014
€ 1,705,338.00
€ 1,412,838.00
MATS ‐ Multipurpose Applications by Thermodynamic Solar
7FP
42 MESI
19/07/2011 ‐ 19/01/2015 € 2,401,217.17
€ 1,912,669.00
STS MED ‐ Small scale thermal solar district units for Mediterranean communities
it f M dit
iti
ENPI CBC‐MED
36 MESI
17/11/2012 16/11/2015
17/11/2012 ‐
€ 406,201.00
€ 365,580.90
MED‐DESIRE ‐ MEDiterranean DEvelopment of Support schemes far solar
Initiatives and Renewable Energies
ENPI CBC‐MED
35 MESI 01/02/2013 ‐ 31/12/2015
€ 541,356.04
€ 487,220.44
HYSOL ‐ Innovative Configuration for a fully renewable hybrid CSP plant
7FP
36 MESI
01/04/2013 ‐ 31/03/2016
€ 732,900.00
€ 556,550.00
EU‐SOLARIS ‐ The European SOLAR Research
Infrastructure for Concentrating Solar Power
7FP
48 MESI 01/11/2012 ‐ 31/10/2016
€ 400,486.85
€ 290,577.59
OMSOP ‐ Optimised Microturbine Solar Power system
7FP
48 MESI
01/02/2013 ‐ 31/01/2017
€ 1,070,104.00
€ 753,304.00
ARCHETYPE SW550 ‐ARChimede Hot Energy TYPology Enhanced Solar Water 550
Enhanced Solar Water 550
7FP
60 MESI 01/01/2012 ‐ 31/12/2017
01/01/2012 € 909,800.00
€ 747,725.00
TOTALE
€ 9,355,582.94
€ 7,620,366.01
+ 6 progetti attualmente in negoziazione/avvio
CO‐
FINANZIAMENTO
UTRINN Progetti in corso IDROGENO & FC
PROGETTO
FINANZIAMENTO
DURATA
BUDGET ENEA
CoMETHy ‐ Compact Multifuel‐Energy To Hydrogen converter
7FP (FCH JU)
36 MESI
01/12/2011 ‐ 30/11/2014
€ 676,127.00
€ 351,468.00
H2FC ‐ Infrastructures 7FP
48 MESI
01/11/2011 ‐ 31/10/2015
€ 142,150.00
€ 101,752.00
GREENLION ‐ Advanced manufacturing g
processes for Low Cost Greener Li‐Ion batteries
7FP
48 MESI
01/11/2011 ‐ 31/10/2015
€ 561,926.00
,
€ 429,033.00
,
MCFC‐CONTEX ‐ MCFC catalyst and stack component degradation and lifetime:
Fuel Gas CONTaminant effects and EXtraction
strategies
7FP (FCH JU)
54 MESI
01/10/2010 – 31/03/2015
€ 898,909.56
€ 428,009.13
SOL2HY2 ‐ Solar To Hydrogen Hybrid Cycles
7FP (FCH JU)
36 MESI
01/06/2013 – 31/05/2016 € 582,963.00
€ 376,570.00 SCoReD 2.0— Steel Coatings For Reducing Degradation in SOFC
7FP
36 MESI
01/07/2013 – 30/06/2016
€ 590,376.00
€ 356,704.00
€ 3,452,451.56
€ 2,043,536.13
TOTALE
+ 1 progetto attualmente in negoziazione/avvio
CO‐
FINANZIAMENTO Progetto MATS - informazioni generali
• MATS = “Multipurpose Applications by Thermodynamic Solar”
• website: www.mats.enea.it
• Collaborative Project, GA n. 268219
• Reference call, EC Program, Theme and Topic
FP7‐ENERGY‐2010‐2‐ENERGY
Topic 2.9‐1: Demonstration of innovating multipurpose solar plants
solar plants
• Duration (42 Months): July 2011 Æ Jan. 2015 (possible delay)
• Budget: 21,960,135 €
B d t 21 960 135 € (EC contribution: 12,515,552 €)
(EC
t ib ti
12 515 552 €)
Progetto MATS - Consorzio
1‐ ENEA (Italy)
2‐ TECNIMONT KT (Italy)
3‐ Academy of Scientific Research and Technology, ASRT (Egypt)
4 New
4‐
N & Renewable
R
bl Energy
E
A th it NREA (Egypt)
Authority,
(E t)
5‐ Delft Environment (Egypt)
6 Fraunhofer Institute (ISE) (Germany)
6‐
7‐ University of Cranfield (UK)
8‐ Orascom Construction Industries,
Industries OCI (Egypt)
9‐ RONDA Group (Italy)
10‐ CEA (France)
10
11‐ Archimede Solar Energy, ASE (Italy)
Progetto MATS – obbiettivi e approccio tecnico/scientifico
Electric Power
1,0 MW el
Outlet Thermal Power
4,0 MW th
Inlet Thermal Power
5,7 MW th
Desalting Unit
Type
MED
Capacity 250 m3 per day
Developing innovative subsystems and demonstrating a 1 MW multi‐generative CSP plant with the following features (3 degrees of flexibility):
•
dispatch flexibility: by an innovative and compact thermal energy storage system
•
output service flexibility: co‐generation of electric power, demineralized water, air conditioning for buildings, depending on the local/seasonal/instantaneous demand
•
input power source flexibility: solar power is integrated with a gas back up source (e.g. biomass or NG) to ensure continuous and stable power production
Progetto MATS – sito individuato per l’impianto Demo
Borg Al‐Arab (N. Coast)
(City for Science and Technology)
Progetto MATS – attività e risultati conseguiti
here we are!
Progetto MATS – attività e risultati conseguiti
Major achievements, to date (RTD/DEM):
•
All key components (reflective panels, solar absorbers, etc.) characterized in laboratory, including ageing
) h
d l b
l d
•
Innovative solar tracking system developed
•
New 100 m collector installed at ENEA‐Casaccia
•
New steam generator prototype (300 kW) positively tested
•
Physical‐chemical properties of the heat transfer fluid determined in laboratory tests
y
•
Innovative back‐up heater designed
•
Innovative operation strategies for the desalination unit coupled to the system conceived
•
3 patent applications produced to date
•
Special UPS installed on the heat storage system
•
Technology transfer from research to industrial partners achieved during the 1st phase •
All Demo plant components identified and designed
•
Co‐generative operation strategies developed
•
Technical/economical optimization of the basic design allowed > 30% cost reduction
•
….
Progetto CoMETHy- informazioni generali
• CoMETHy = “Compact Multifuel‐Energy To Hydrogen converter”
• website: www.comethy.enea.it
• Collaborative Project, GA n. 268219
• Reference call, EC Program, Theme and Topic
FP7‐SP1‐JTI‐FCH.2010.2.2 Hydrogen production & distribution ‐ Development of fuel processing catalyst modules and systems
catalyst, modules and systems
• Duration (36 Months): Dec. 2011 Æ Nov. 2014
• Budget: 4,927,884.60 € (EC contribution: 2,484,095 €)
Progetto CoMETHy - Consorzio
1. ENEA (Italy)
2. Processi Innovativi Srl – PI (Italy)
3. Acktar Ltd. (Israel)
4. Israel Institute of Technology – Technion (Israel)
5 Fraunhofer‐Institut
5.
F
h f I i für
fü Keramische
K
i h Technologien
T h l i und Systeme
dS
– IKTS (Germany)
(G
)
6. Universita’ degli Studi di Salerno – UNISA (Italy)
7. Centre for Research and Technology Hellas –
gy
CPERI/CERTH
/
((Greece))
8. Aristotelio Panepistimio Thessalonikis – AUTH (Grece)
9. Università di Roma La Sapienza – UNIRM1 (Italy)
10.Stichting Energieonderzoek Centrum Nederland – ECN (the Netherlands)
11.GKN Sinter Metals Engineering GmbH– GKN (Germany)
12.Universita’ Campus Biomedico di Roma 12.Universita
Campus Biomedico di Roma – UniCampus (Italy)
Progetto CoMETHy – obbiettivi e approccio tecnico/scientifico
Developing a highly flexible hydrogen production system from different locally available renewable sources Molten salts heater, SG, heat storage and CSP g
plants are being developed at the demonstration level in other 7FP projects
th 7FP
j t
CoMETHy target
Progetto CoMETHy – attività e risultati conseguiti
here we are!
0
10 12
project month
18
21
WP2
catalyst development
33
Development of advanced catalysts for low‐temperature steam reforming (NG biogas ethanol)
reforming (NG, biogas, ethanol)
2
Development of selective membranes for hydrogen separation
WP4
reformer design 3
WP5
30
1
WP3
membrane development
24
36
4
Development of a multi‐fueled membrane reformer heated by molten salts
Pilot plant construction & testing
(
(proof‐of‐concept)
f f
t)
5
WP6
process 6
assessment
7
M j
Major achievements, to date:
hi
t t d t
•
All project Milestones are successfully achieved
•
Basic materials (catalyst, membrane) developed/selected
•
Demo plant designed
•
One patent application produced to date
•
Preliminary proof‐of‐concept tests successful!!
•
Cooperation and synergy with other 7FP programs
•
Potential spin‐off and follow‐up identified
•
…
Grazie per l’attenzione
[email protected]